US7796138B2 - Method and device for processing video data by using specific border coding - Google Patents

Method and device for processing video data by using specific border coding Download PDF

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US7796138B2
US7796138B2 US10/584,743 US58474304A US7796138B2 US 7796138 B2 US7796138 B2 US 7796138B2 US 58474304 A US58474304 A US 58474304A US 7796138 B2 US7796138 B2 US 7796138B2
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US20070154101A1 (en
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Sébastien Weitbruch
Cédric Thebault
Carlos Correa
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Thomson Licensing SAS
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    • G09G3/22Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources
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    • G09G3/291Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using luminous gas-discharge panels, e.g. plasma panels using AC panels controlling the gas discharge to control a cell condition, e.g. by means of specific pulse shapes
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    • G09G3/288Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using luminous gas-discharge panels, e.g. plasma panels using AC panels
    • G09G3/291Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using luminous gas-discharge panels, e.g. plasma panels using AC panels controlling the gas discharge to control a cell condition, e.g. by means of specific pulse shapes
    • G09G3/294Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using luminous gas-discharge panels, e.g. plasma panels using AC panels controlling the gas discharge to control a cell condition, e.g. by means of specific pulse shapes for lighting or sustain discharge
    • G09G3/2946Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using luminous gas-discharge panels, e.g. plasma panels using AC panels controlling the gas discharge to control a cell condition, e.g. by means of specific pulse shapes for lighting or sustain discharge by introducing variations of the frequency of sustain pulses within a frame or non-proportional variations of the number of sustain pulses in each subfield
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    • G09G3/22Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources
    • G09G3/28Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using luminous gas-discharge panels, e.g. plasma panels
    • G09G3/288Control arrangements or circuits, of interest only in connection with visual indicators other than cathode-ray tubes for presentation of an assembly of a number of characters, e.g. a page, by composing the assembly by combination of individual elements arranged in a matrix no fixed position being assigned to or needed to be assigned to the individual characters or partial characters using controlled light sources using luminous gas-discharge panels, e.g. plasma panels using AC panels
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Definitions

  • the present invention relates to a method for processing video data to be displayed on a display screen by providing said video data having video levels selected from a predetermined number of video levels, encoding said predetermined number of video levels with a corresponding number of codewords and illuminating pixels in a central area of said display screen in accordance with said codewords.
  • the present invention relates to a corresponding device for processing video data.
  • FIG. 1 illustrates a white page displayed on PDP having response fidelity problems.
  • the response fidelity problems appear in the form of misfiring of cells having too much inertia. Such cells require more time for writing as available.
  • the best contrast ratio will be obtained by using a single soft-priming operation per frame.
  • Such a concept is achieved by optimization of the coding concept as seen in the next paragraph.
  • the document EP-A-1 250 696 introduces a concept of one single “soft-priming”, where only one priming at the beginning of a frame is performed. In that case, only the first sub-fields will be near enough from the priming signal in the time domain to benefit from it. Now, the main idea was to use these first sub-fields as a kind of “artificial priming” for the next sub-fields taking the assumption that one lighted sub-field will help the writing of the next ones (cascade effect).
  • FIG. 2 illustrates this “cascade effect” in the case of a 12 sub-fields code by analyzing the jitter of the writing discharge for the last sub-field (most significant bit MSB). It represents the statistic distribution of the writing discharge of the last sub-field inside the plasma cell for two different codewords by respective envelope curves. In both situations, there is only one priming (P) at the beginning of the frame (not shown).
  • the codeword used (P-101111111101) enables a good cascade effect from the priming P up to the last sub-field (MSB). Then, the distribution of the writing discharge is well concentrated and fully occur inside 1.1 ⁇ s which represents the new borderline for the address speed. This means, that the writing process can be performed within the addressing period.
  • the codeword used (P-000000000001) does not permit any cascade effect and therefore the writing of the last sub-field is less efficient. Then, the distribution of the writing discharge is no more concentrated and is spread on a longer time period as shown by the envelope. Thus some writing process would be performed after the addressing period. In that case, more time should be given to the addressing for acceptable response fidelity.
  • FIG. 3 illustrates various ways to encode the video level 33 with two different sub-field organizations.
  • a binary code shown on the left side of FIG. 3 leads to a large space between two sub-fields ON. Therefore, there is no influence between these sub-fields and no concentration of energy in the low sub-fields. As a result, more priming or longer addressing time is needed.
  • a redundant code presented on the right side of FIG. 3 enables a better concentration of the energy around the priming and also enables to reduce the distance between two sub-fields ON so that the cascade effect can be utilized.
  • the optimal sub-fields encoding should enable to have not more than one sub-field OFF between two sub-fields ON. This property will be called Single-O-Level (SOL).
  • SOL Single-O-Level
  • An optimized sub-field weighting based on the mathematical Fibonacci sequence enables to fully respect the SOL criterion.
  • FIG. 4 illustrates an example of coding used for all further explanations (11 sub-field redundant coding).
  • the frame depicted here starts with a priming operation. After that, a sequence of sub-fields follows. Each sub-field starts with an addressing block. According to the value of the sub-field a time period for applying sustain impulses follows. At the end of each sub-field a plasma cell is reset by an erasing operation.
  • this object is solved by a method for processing video data to be displayed on a display screen by providing said video data having video levels selected from a predetermined number of video levels, encoding said predetermined number of video levels with a corresponding number of codewords and illuminating pixels in a central area of said display screen in accordance with said codewords, as well as illuminating pixels in a border area surrounding said central area of said display screen by using only those codewords of said number of codewords, which have a constant bit value in a selectable part of the codewords.
  • a device for processing video data to be displayed on a display screen including data providing means for providing said video data having video levels selected from a predetermined number of video levels, encoding means for encoding said predetermined number of video levels with a corresponding number of codewords and illuminating means for illuminating pixels in a central area of said display screen in accordance with said codewords, wherein said illuminating means is adapted for illuminating pixels in a border area surrounding said central area of said display screen by using only those codewords of said number of codewords, which have a constant bit value in a selectable part of the codewords.
  • codewords which have a binary 0 between two binary 1, are not used for illuminating the border area.
  • cells of the display screen being ON cannot pollute surrounding cells being OFF.
  • Video levels corresponding to codewords being not used may be recreated by dithering. With such dithering every video level can be created by temporarily switching on an off a higher video level.
  • a part of the codewords having constant bit value may be determined by a power level of a picture to be displayed. Since the pollution of neighbour cells depends on the power level of a picture, it is advantageous to adapt the coding of the video levels to the power level.
  • the part of the codewords being determined to have constant bit value should include the most significant bits of the codewords.
  • the high level sub-fields of which are on and off alternatingly Consequently, cells of the display screen being energized by a lot of sustain impulses according to high level sub-fields will not pollute neighbouring cells being OFF.
  • the border area is preferably divided into several sub-areas, wherein the non-usage of codewords is stepwise reduced.
  • a first one of said several sub-areas may be illuminated by codewords with a first selectable part of constant bit value and a second one of the several sub-areas may be illuminated by codewords with a second selectable part of constant bit value, wherein the second selectable part includes the first selectable part of codewords or at least a portion of it or is different from the first selectable part.
  • the length of the part within a codeword in which the bit value is constant is variable starting from the most significant bit of a codeword.
  • FIG. 1 a dual-scan PDP having response fidelity problems
  • FIG. 2 a cascade effect for last sub-field writing
  • FIG. 3 various coding possibilities towards a single-0-concept
  • FIG. 4 an example of the single soft-priming concept
  • FIG. 5 a typical PDP border problem
  • FIG. 6 the structure of a PDP before sealing
  • FIG. 7 the structure of a PDP after sealing
  • FIG. 8 a zoomed part of FIG. 5 having the border problem
  • FIG. 9 a codeword comparison of the codewords of FIG. 8 ;
  • FIG. 10 a zoomed part of FIG. 5 having no border problems
  • FIG. 11 a codeword comparison of codewords of FIG. 10 ;
  • FIG. 12 an ON/OFF pattern in case of closed cells of a display screen
  • FIG. 13 an ON/OFF pattern in case of open cells of a display screen
  • FIG. 14 a general concept of a power management
  • FIG. 15 a function showing the linkage between the power consumption and the number of sustains per frame for a power management applied to a PDP;
  • FIG. 16 an evolution of sustain sequence versus the average power level
  • FIG. 17 critical sub-field for response fidelity
  • FIG. 18 display screens with different border areas
  • FIG. 19 a block diagram of a hardware implementation of a device according to the present invention.
  • the present invention is based on the knowledge that the structure of a PDP in its centre is different from that in the border area.
  • plasma panels are built with two glass plates (front and back) sealed together and having electrodes on top of them (horizontal transparent electrodes on the front plate, vertical metallic electrodes on the back plate).
  • the various plasma cells (Red, Green and Blue dots) are delimited through so-called barrier-ribs having a certain height. This height also normally defines the distance between the two plates.
  • This basic concept is illustrated in FIG. 6 for a PDP sealing. There is a height difference between the ribs and the seal being arranged at the border of the plasma panel. Indeed, in order to have a perfect sealing, it is needed that the seal is higher than the ribs.
  • FIG. 8 A greyscale is realized by a smooth transitation from the pixel value 170 to the pixel value 176 by displaying the values alternatingly.
  • the following sub-field code is used:
  • FIG. 8 shows that the response fidelity problems, in the example, are located at the cells having direct neighbours with different values. In other words, when a cell with the value 170 has a direct neighbour (not diagonal) having the value 176, both cells have problems.
  • FIG. 10 In order to learn more about the reason of the problems another zoomed part of the screen is shown in FIG. 10 . As apparent from this Figure there are no cells having problems. A comparison of the codewords related to FIG. 10 is illustrated in FIG. 11 . Differences appear in the second and third bit.
  • the codewords may be modified in dependence of the average power level of a picture to be displayed. A prerequisite of this is that an adequate power management is provided.
  • the power management is based on a so called ABM function (Average Beam-current Limiter), which is implemented by analogue means, and which decreases video gain as a function of average luminance, usually measured over a RC stage.
  • ABM function Average Beam-current Limiter
  • the luminance, i.e. the picture charge, as well as the power consumption is directly linked to the number of sustains (light pulse) per frame as shown in FIG. 15 .
  • the number of sustains can be adjusted depending on the picture content.
  • the picture is full (e.g. full white page—100%) it is not possible to use the total amount of sustains (e.g. only 100 sustains are used) which leads to a reduced white luminance (around 100 cd/m2). This determines the power consumption (e.g. 300 W).
  • the charge of the picture decreases (e.g. night with only a small moon up to 0%)
  • the number of sustains can be increased without increasing the power consumption. This only enhances the contrast for the human eye.
  • APL Average Power Level
  • APL ⁇ ( I ⁇ ( x , y ) ) 1 C ⁇ L ⁇ ⁇ x , y ⁇ I ⁇ ( x , y )
  • I(x,y) represents the picture to be displayed
  • C the number of columns
  • L the number of lines of this picture. Then, for every possible APL values, the maximal number of sustains to be used is fixed.
  • FIG. 16 representing the sustain sequences for various APL levels at a given sub-fields sequence based on a 12 sub-fields Fibonacci sequence: 1-2-3-5-8-13-19-25-32-40-49-58
  • the sub-fields showing response fidelity problems are marked with grey colour.
  • these sub-fields represent the sub-fields, which would be primed.
  • FIG. 18 illustrates the concept of border areas surrounding a standard area with two possibilities:
  • border areas are really small and do not represent a main part of the screen (e.g. only 4% of the screen).
  • the values are obtained through measurements at the panel level.
  • the first column corresponds to the video value to be rendered
  • the second column to the standard codeword (used in the standard area of the panel as described on FIG. 18
  • the third, fourth and fifth respectively to the codeword used in the areas ⁇ 1, ⁇ 2, ⁇ 3.
  • codeword xxxxxxxxxxxx means dropped codeword (not used).
  • the video values 33 up to 38 are not rendered whereas they are rendered in the two other areas.
  • the video level 33 is rendered with the codeword 111010100000 in the standard area.
  • the 6th sub-field has an energy of 71 sustains which is more than ⁇ 1 but lower than ⁇ 2 and ⁇ 3.
  • the 6th sub-field is set to zero whereas the 7th is set to one, which represents a critical situation as described in FIG. 9 . Therefore, the codeword is dropped for area ⁇ 1 only.
  • fewer levels will be suppressed in the case of a combination with dynamic priming.
  • a trade-off should be chosen between the number of sub-fields used for dropping and the number of additional priming.
  • the ideal position for the primed sub-fields will be on the lowest sub-fields from the critical group (all sub-fields having more than ⁇ n sustains) since the number of codewords to be dropped will be more reduced in that case.
  • FIG. 19 A hardware implementation of the border-coding concept for a PDP panel is shown in FIG. 19 .
  • Input 8-bit R, G, B is forwarded to the video-degamma function block 1 (mathematical function or LUT), which outputs the signal with more resolution (at least 10 bits).
  • This signal is forwarded both to a power measurement block 2 and to the video-mapping block 3 .
  • the power measurement block 2 measures the Average Power level APL of the video signal.
  • the control system 4 determines the sustain table and the encoding table with its sub-fields number. Furthermore, this basic information APL is sent to a border select block 5 so that a correct decision regarding the critical areas can be taken. To do that, the border select block also disposes of position information (H-line and Clock-pixel) so that the right ⁇ area can be determined. Additionally, the border select block 5 receives a control signal BORD from the system control block 4 . This control signal BORD is used for activating the specific border coding. The ⁇ information output from the border select block 5 as well as a mapping information (related to the encoding and sustain table) is sent to the video mapping block 3 which modifies the video data so that the dropped video parts can be recreated correctly with the dithering function.
  • APL Average Power Level
  • mapping stage in video mapping block 3 data are forwarded to a dithering block 6 replacing non-encodable video levels. Then, the encoding to codewords of a 10 bit RGB signal from the dithering block 6 is performed by the sub-field coding block 7 receiving coding information from the system control block 4 concerning the decision which LUT should be used for sub-field coding.
  • the system control block 4 also controls the writing of 16 bit RGB pixel data from the sub-field coding block 7 in a 2-frame memory 8 (WR), the reading (RD) of RGB sub-field data from a second frame memory integrated in the 2-frame memory 8 , and the serial to parallel conversion circuit (SP) in a serial-parallel conversion block 9 receiving the output signals SF-R, SF-G,SF-B from the 2-frame memory 8 .
  • WR 2-frame memory 8
  • RD reading
  • SP serial to parallel conversion circuit
  • the 2-frame memory 8 is required, since data is written pixel-wise, but read sub-field-wise. In order to read the complete first sub-field a whole frame must already be present in the memory 8 . In a practical implementation two whole frame memories are present, and while one frame memory is being written, the other is being read, avoiding in this way reading the wrong data. In a cost optimized architecture, the two frame memories are located on the same SDRAM memory IC, and the access to the two frames is time multiplexed.
  • the serial-parallel conversion block 9 outputs top and bottom data for the plasma display panel 10 .
  • the system control block 4 including an addressing and sustain control unit 42 generates the SCAN and SUSTAIN pulses required to drive the PDP driver circuits of the PDP 10 .

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US10/584,743 2004-01-07 2004-12-20 Method and device for processing video data by using specific border coding Expired - Fee Related US7796138B2 (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
EP04100030A EP1553549A1 (fr) 2004-01-07 2004-01-07 Procédé et dispositif pour le codage spécifique des pixels attribués au contour de l'écran de visualisation d'un afficheur plasma
EP04100030 2004-01-07
EP04100030.8 2004-01-07
PCT/EP2004/053603 WO2005069262A2 (fr) 2004-01-07 2004-12-20 Procede et dispositif de traitement de donnees video par codage de bord specifique

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EP (2) EP1553549A1 (fr)
JP (1) JP5101886B2 (fr)
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JP5879902B2 (ja) * 2011-10-13 2016-03-08 セイコーエプソン株式会社 電気光学装置および電子機器
CN113867659B (zh) * 2020-06-30 2024-02-06 西安诺瓦星云科技股份有限公司 图像输出方法和装置以及模组控制器

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JP2007519953A (ja) 2007-07-19
EP1553549A1 (fr) 2005-07-13
WO2005069262A3 (fr) 2005-09-29
TW200529143A (en) 2005-09-01
CN1902674A (zh) 2007-01-24
KR20060130601A (ko) 2006-12-19
CN100419824C (zh) 2008-09-17
US20070154101A1 (en) 2007-07-05
JP5101886B2 (ja) 2012-12-19
EP1702315A2 (fr) 2006-09-20
WO2005069262A2 (fr) 2005-07-28

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